EP1502556A2 - Arrangement for guiding dental implant drills, drill template as well as an implant for retaining the template and method for the manufacturing of this drill template - Google Patents

Abstract

An implant (2) in the jaw (1) holding a drilling templet (4). The templet and the holding implant (2) have fastenings (7, 8, 28, 29). These are matched, such that the drilling templet fastens to the holder implant (2). An independent claim is included for the corresponding method.

Description

The invention relates to an arrangement for guiding a dental implant drill for making a hole in a jaw for receiving a dental implant, the arrangement being attached to a jaw, palate and / or one or more several teeth adapted drilling template with one or more holes for performing the drill.

The invention further relates to a surgical template and a surgical template receiving implant for such an arrangement.

Finally, the invention also relates to a method for producing such Drilling template.

Drilling templates are known for guiding dental implant drills during the production of a hole in the jaw, which for receiving a dental implant should serve, which rested on remaining teeth or the palate become. Such surgical templates are usually substantially manual modeled. For this purpose, first an impression of the dentition or the palate then taken to a model of the dentition or the palate produce. This model then becomes a wax model for one below modeled drilling template. This model relies on remaining ones Teeth - if any - or only on the palate.

In a further step, this plastic model is modeled. This Plastic model has holes that lead to the guidance of a dental implant drill during surgery. During a surgical procedure is performed through such a hole a dental implant drill, the one Drill hole in the jaw for later inclusion of a dental implant. The Drilling template should serve to make the most accurate drilling possible can.

However, this known process would have the disadvantage that the surgical guides regularly insufficiently fixed in the mouth of the patient. thats why a displacement or pivoting of the drilling template a frequently occurring Disadvantage with the consequence that the holes to be made in the jaw not correspond to their desired position or target orientation.

In addition, this known approach requires a number of manual Measures, in particular during the production of the drilling template. These manual actions are error prone and therefore also reduce the quality of the drill holes to be made to receive dental implants.

The invention is therefore based on the problem of producing holes to improve the incorporation of dental implants.

The invention solves this problem with an arrangement of the aforementioned Art, which is characterized in that the arrangement further comprises at least one Drill template implant for holding the drill template in the jaw and the drilling template comprises at least a first fastening device and the surgical template implant has a second attachment device, wherein the first attachment means and the second attachment means are adapted to each other so that the drilling template on the surgical template receiving implant is fastened.

The invention further solves this problem by a drilling template for such Arrangement, wherein the drilling template one or more holes to carry out a dental implant drill for making a bore in a Jaw for receiving the dental implant and at least a first fastening device which is formed such that it with a second Fastening device of a drill template receiving implant for receiving the surgical template in the jaw in engagement with the attachment of the drilling template the drill template receiving implant is connectable.

The invention further solves this problem with a surgical template receiving implant for such an assembly, wherein the surgical template receiving implant is designed for receiving such a drilling template, the at least a first fastener, and wherein the drill template receiving implant a second fastening device which, in such a way adapted to the first fastening means is that the drilling template on the Bohr stencil receiving implant is attachable.

The invention initially permits one or more surgical template receiving implants with these measures to screw in the jaw. At this or this Surgical tap receiving implants will then be a specially adapted Drilling template mounted. This drilling template is in particular with fastening devices attached to the position of the set or stencil receiving implants are customized. This is the drilling template Firmly fixable in the jaw. Slipping, shifting or twisting the Drilling template can thus be substantially completely avoided.

Preferably, three drill template implants are implanted in the jaw. In this way, the drilling template can be fixed at three points. By Such a three-point fixation can be any change in position of the drilling template in the jaw, especially during the production of holes in the Jawbones are avoided. Ideally, there are three such template graft implants not in a straight line, but in such a way that the third the drill template pick-up implants out of the way through two other template pick-up implants extending straight line is arranged.

The fasteners on the drilling template are at the positions of Surgical tap receiving implants in the jaw adjusted so that they corresponding fasteners on the drill template receiving implants are fastened.

Preferably, one or more removable guide sleeves are in the drilling template provided in the holes for the implementation of a dental implant drill, also exact guidance of drills with different drill diameters to enable. Particularly preferred are several such Guide sleeves inserted telescopically and removed individually. On this way may be at the beginning of a surgical procedure for setting holes For dental implants to be started with a thin drill. Once a first thin bore was made, the innermost guide sleeve is removed. There remains a cylindrical hole with a larger diameter, which is suitable for guiding a larger diameter dental implant drill is. In this way, a number of dental implant drills with use different diameter at a predetermined position.

The surgical template receiving implant preferably has an upper, Implant head facing portion on a tapered portion, one increasing toward the head of the surgical template receiving implant Diameter has. This increasing diameter allows for advantageous Way, an improved seal of the when inserting the Bohr stencil receiving implant resulting gap to the surrounding gums. The deeper the drill template receiving implant is screwed into the jawbone the wider the section of the surgical template implant, which is in contact with the gums. In this way, an intrusion of food debris and bacteria in the area of the surgical template receiving implant be prevented.

The invention solves the above-mentioned. Problem further by a method for manufacturing Such a surgical template, in which the drilling template by layer by layer Laser sintering or laser melting of powdered material formed becomes.

This manufacturing process can be a far-reaching automation achieve, since the laser used computer-based predetermined shapes can generate. Manual operations during the production of the drilling template can be largely reduced. The shape of a drilling template is first calculated computer-aided. This will be done by scanning a patient's dentition or an impression of the patient's dentition determined data, to get the optimal shape of the drilling template. The procedure of Laser sintering or laser melting is also particularly advantageous because create complex structures of almost any shape with this method to let.

Manual intervention is therefore hardly needed anymore. Therefore, this manufacturing method allows a cost-effective and high-precision production of surgical guides and thus allows for improved production of holes for dental implants.

Initially, positions of jigset implant implants implanted in the jaw are preferred determined by computer tomography. Then be at these positions corresponding positions on the drilling template the first Fastening devices formed. In this way, it is advantageous a precise adjustment of the fastening devices of the drilling template the fastening devices of the Bohr stencil receiving implants namely also without the need for error-prone manual intervention.

Fig. 1

eine schematische Ansicht eines Unterkiefers mit implantierten Bohrschablonenaufnahmeimplantaten gemäß einem Ausführungsbeispiel der Erfindung;

Fig. 2

eine an den Bohrschablonenaufnahmeimplantaten gemäß Fig. 1 montierte Bohrschablone gemäß einem Ausführungsbeispiel der Erfindung;

Fig. 3

die Bohrschablone gemäß Fig. 2 mit schematisch angedeuteten Bohrungen im Kiefer zur Aufnahme von Dentalimplantaten;

Fig. 4

schematische Schnittansichten eines im Kiefer implantierten Bohrschablonenaufnahmeimplantats mit daran befestigter Bohrschablone sowie diese Bohrschablone im Bereich der Löcher zur Durchführung eines Dentalimplantatbohrers mit mehrere ineinandergesteckten Führungshülsen nebst schematisch angedeuteten Bohrungen im Kiefer; und

Fig. 5

eine schematische Ansicht einer Vorrichtung zur Herstellung einer Bohrschablone gemäß der Erfindung.

Further advantageous embodiments of the invention will become apparent from the dependent claims and from the closer explained with reference to the accompanying drawings embodiments. In the drawing shows:

Fig. 1

a schematic view of a mandible with implanted Bohr stencil receiving implants according to an embodiment of the invention;

Fig. 2

a surgical template mounted on the surgical template receiving implants of FIG. 1 according to an embodiment of the invention;

Fig. 3

the drilling template of Figure 2 with schematically indicated holes in the jaw for receiving dental implants.

Fig. 4

schematic sectional views of a jaw implant implant implanted in the jaw with attached drilling template and this template in the area of the holes for performing a dental implant drill with a plurality of nested guide sleeves together with schematically indicated holes in the jaw; and

Fig. 5

a schematic view of an apparatus for producing a drilling template according to the invention.

Fig. 1 shows a lower jaw bone 1, in the front area of which three drill template receiving implants 2 implanted, namely screwed. These Drilling template receiving implants 2 are arranged such that each one Drill template capture implant 2 outside of one through two other template capture implants 2 extending straight line 3 is positioned.

Fig. 2 shows a mounted on these Bohrschablone receiving implants 2 Drilling template 4. The drilling template 4 has a main body 5 through the Surgical template 4 passing holes 6. These holes 6 are used for Performing a dental implant drill to drill holes in the jawbone for the subsequent inclusion of a dental implant (not shown) produce.

On this main body 5 fastening tongues 7 are arranged, which serve as fastening devices the surgical template 4 on the Bohr stencil receiving implants 2 serve. Each of the fastening tongues 7 has a continuous Hole 8 for receiving a head 9 of a surgical template receiving implant 2 on.

These holes 8 in the fastening tongues 7 are mounted such that in each case a hole 8 outside of a through the other two holes 8 extending Straight line 10 is arranged.

Due to the arrangement of the Bohr stencil receiving implants 2 in the jaw 1 and the adapted thereto arrangement of the holes 8 in the fastening tongues. 7 the drilling template 4, it is ensured that three attachment points for the Drilling template are not in a straight line, causing a pivoting of the drilling template 4 could not completely prevent it. Rather, they are both the surgical template receiving implants 2 and the corresponding ones Fastening devices, namely holes 8, on the drilling template 4 such arranged to span a plane. This allows a fixation of Drilling template 4 in the room.

FIG. 3 shows the drilling template mounted on the drilling template receiving implants 2 4, after drilling bores 11 into the jaw 1 through the holes 6 have been. The holes 6 serve for the exact guidance of a dental implant drill for producing the holes 11 in the jaw 1.

FIGS. 1 to 3 show that the drilling template receiving implants 2 are preferably be attached to the side of the jaw, while the holes 11 in the jaw 1 can be made from above or below. The holes 11 are thus more or less, i. substantially perpendicular to the surgical template receiving implants 2. This arrangement of the drill template receiving implants 2 is in many cases already conditioned by the fact that in the area of the main body 5 teeth are still present, which is an implantation of Bohr stencil receiving implants 2 prevent. However, this type of attachment is the Surgical template implants 2 are also beneficial in cases where essentially missing all the teeth of a jaw, as in this way the area for the setting of the holes 11 for receiving the dental implants free of the Drill template receiving implants 2 can be maintained. Furthermore allows This arrangement of the drill template receiving implants 2 an additional Stiffness of the drilling template 4 and thus a particularly rigid fixation the drilling template 4.

Fig. 4 shows on the left side of the main body 5 of the drilling template 4 with a Hole 6 for performing a dental implant drill into which a first Guide sleeve 12 is inserted. This guide sleeve 12 has a lower cylindrical portion 13 and an upper (eg cylindrical) portion 14th on. The outer diameter of the upper portion 14 is larger than the outer diameter of the lower cylindrical portion 13. The outer diameter of the lower cylindrical portion 13 substantially corresponds to the inner diameter of the hole 6. The upper portion 14 is supported by its edge 15 on the main body 5 of the drilling template 4 from.

This first guide sleeve 12 has a cylindrical passage inside 16 on. The diameter of this cylindrical passage 16 is to a dental implant drill adapted with a corresponding diameter.

This cylindrical passage 16 also serves to receive a second Guide sleeve 17, which also has an upper (eg cylindrical) section 18th and a lower cylindrical portion 19. The outer diameter of the lower cylindrical portion 19 substantially corresponds to the inner diameter the cylindrical passage 16 of the first guide sleeve 12, so that the second guide sleeve 17 is received without play by the first guide sleeve 12 can be.

The upper portion 18 of the second guide sleeve 17 has an outer diameter which is larger than the inner diameter of the cylindrical passage 16, so that this section as a stop of the second guide sleeve 17 at the upper edge of the upper guide sleeve 12 is used.

The guide sleeves 12 and 17 are first inserted into the hole 6. On In this way, the hole 6 is provided with a sleeve with the smallest diameter. Now, the surgeon with a first thin dental implant drill a make first hole 20 in the lower jaw bone 1. Then takes the Operator the second guide sleeve 17 and performs a second, thicker dental implant drill in the cylindrical passage 16 of the first guide sleeve 12th and takes a second bore 21 of wider diameter than the first one Bore 20 in the lower jaw bone 1 before.

Subsequently, the surgeon removes the first guide sleeve 12 and performs with a third, compared to the second dental implant drill thicker drill a third bore 22 in the lower jawbone 1. In this way, arise in Fig. 3 shown holes 11th

The guide sleeves 12 and 17 thus not only serve to guide a dental implant drill, but also as a stop for the respective dental implant drill, so that each only up to a predetermined depth in the jawbone 1 can drill.

Although in the embodiment shown in Fig. 4, only two guide sleeves 12, 17 are provided. In alternative embodiments However, more or less guide sleeves may be provided.

In a further, not shown embodiment, the guide sleeves not nestable, but have the same outer diameter in the each lower cylindrical section, but at different inner diameters the cylindrical bushings. With such a configuration The guide sleeves will only one for each dental implant drill Guide sleeve inserted into the hole 6 in the main body 5 of the template 4 and after making the appropriate hole against another guide sleeve replaced.

On the right half of FIG. 4 is a surgical template receiving implant 2 shown, which is introduced in the lower jaw bone 1. The drill template implant 2 has a lower portion with one, in particular self-tapping, external thread 23. Above this thread 23 has the Drill template receiving implant 2 a conical section 24, whose Diameter added to the head 9 of the Bohr stencil receiving implant 2. This conical section 24 is located with implanted surgical template implant 2 in the region of the jawbone 1 surrounding gums 25th

The head 9 has a regularly formed multi-surface area for recording a dental tool on, for example, an outside or inside three, Four- or six-Kant. 4, an outside-four-edge 26 is shown. through This multi-surface area 26 becomes the drill template receiving implant 2 screwed into the jawbone with the aid of a suitable tool, if necessary, after making a first thin hole.

Further, in the region of the head 9, an axially into the surgical template receiving implant 2 inside extending female thread 27 cut. This Internal thread 27 serves to receive a fastening screw 28, by means der the template 4 or a fastening tongue 7 of the template 4 is screwed against the upper end surface 29 of the conical portion 24.

The fastening screw 28 also has means for receiving a dental tool on, for example, a screw slot, a Phillips, or an inside or outside three-, four- or six-edge 30th

The diameter of the drill template receiving implant 2 is in the range the thread 23 about 1.5 to 3 mm, in particular 1.8 to 2.5 mm. The length of the surgical template implant is about 5 to 8 mm, with the Bone implanted length of the implant is about 4 to 7 mm. Both Surgical template implants 2 are therefore - in comparison to usual dental implants - small and thin implants. The conical Bleed 24 thus comes in addition to the function of sealing the surgical template receiving implant 2 in the area of the gums 25 another meaning to, namely the diameter of the inherently thin Bohr stencil receiving implant 2 expand, so that the bore for the internal thread 27 with sufficient diameter can be made. In addition, enlarged through this conical formation 24 of the surgical template receiving implant the upper end surface 29 for receiving a fastening tongue 7. A larger Upper end surface 29 is advantageous because it is for a secure fixation of the drilling template is responsible.

5 shows a device 31 for producing a drilling template 4 by means of Laser sintering or laser melting. The device 31 has a table 32 with a height-adjustable platform 33, which via a drive, not shown incrementally in height, for example in increments of 0.05 to 0.2 mm, can be adjusted.

The device 31 further comprises a laser 34, for example CO ₂ laser, arranged above the table 32, the beam 35 of which is guided by a suitable device, for example a computer-controlled mirror galvanometer 36.

The device 31 further comprises a coating mechanism 37, by means of its powdery material, in particular titanium powder or titanium-containing powder or titanium alloy powder, evenly over the surface of the table 32 is distributed, so that in particular the space between the surface the platform 33 and the surface of the table 32 to the surface of the Table 32 is filled with powdery material 38.

The production of a drilling template 4 is now done as follows: First the platform 33 is in an upper starting position. Then the Laser 34 is activated and directed his laser beam 35 on the powdery material. The laser beam 35 solidifies or melts due to the generated by him Heat the powdered material, which - depending on the amount of powdered Material applied energy - sintered or fused with surrounding powder becomes. The laser beam 35 moves according to a preprogrammed Shape of the drilling template 4 a range of the powdery material 38 from. This results in a layer of fused or sintered material.

Then the laser 34 is deactivated and the platform 33 by a layer thickness, for example, from 0.05 to 0.2 mm, lowered. By means of the coating mechanism 37 is then a new layer of powdery material 38th applied and smoothed. Subsequently, the laser 34 is activated again and the laser beam 35 in turn moves computer controlled the area, within wherein the powdery material 38 fused with the previously produced layer or to be sintered, or even adjacent or non-adjacent Areas. This process of applying layers of powdered Material and the sintering or fusion of these layers with the previously applied layers by means of the laser 34 is repeated performed until the drilling template 4 is formed in the desired shape Has.

By means of this method can be automatically any shapes of drilling templates 4 form, which at any point attachment tongues or holes exhibit. This method is particularly suitable because complex Geometries of drilling templates can be readily produced. In principle, any material can be sintered with the laser beam 35 or fused together so that the invention is not limited to the use of Titanium powder or titanium-containing powder or powder limited to a titanium alloy is.

The device 31 further comprises a controller 39, by means of which in particular the activation and deactivation of the laser 34 and the positioning of the laser Laser beam 35 via the mirror galvanometer 36 and the height adjustment of Platform 33 is controlled. The coordination of these components of the device 31 finally ensures the correct formation of the drilling template. 4 The controller generates its commands depending on previously calculated Model data of a virtual drilling template. These model data are before starting from the obtained by means of a computer tomograph 40 three-dimensional Data of a jaw and / or dentition has been determined.

During the computed tomography performed by the computer tomograph 40 computer also the positions of those already implanted in the jaw Drill template implants detected and corresponding to these positions at suitable locations on the drilling template the fastening devices, in particular fastening tongues 7, formed.

Thanks to the invention, precisely produced drilling templates can be precisely determined Positions in the jaw are rigidly fixed, so that even a rigidly fixed Guidance of dental implant drills can be safely ensured. To this Way, the accuracy of the position of drilling for dental implants as well as their alignment are maintained exactly.

Claims (24)

Arrangement for guiding a dental implant drill for producing a bore (11, 20-22) in a jaw (1) for receiving a dental implant, wherein the arrangement comprises a drilling template (4) adapted to a jaw (1), palate and / or one or more teeth ) with one or more holes (6) for the passage of the drill,
characterized in that the assembly further comprises at least one surgical template receiving implant (2) for receiving the surgical template (4) in the jaw (1) and the drilling template (4) has at least one first fastening device (7, 8) and the drilling template receiving implant (2) has a second fastening device (28, 29), wherein the first attachment means (7, 8) and the second attachment means (28, 29) are adapted to one another such that the drilling template (4) is attachable to the surgical template receiving implant (2). Arrangement according to claim 1,
characterized in that
the number of drilling template receiving implants (2), the number of first fastening devices (7, 8) and the number of second fastening devices (28, 29) is at least three in each case. Arrangement according to claim 2,
characterized in that
a third of the first fastening devices (7, 8) is arranged outside a straight line (10) running through two other first fastening devices (7, 8). Arrangement according to claim 2 or 3,
characterized in that
a third of the surgical template receiving implants (2) is disposed outside a straight line (3) passing through two other surgical template receiving implants (2). Drilling template for an arrangement according to one of claims 1 to 4, wherein the drilling template (4) has one or more holes (6) for passage a dental implant drill for making a bore (11, 20-22) in a jaw (1) for receiving a dental implant and at least a first fastening device (7, 8), which is formed in such a way is that with a second fastening means (28, 29) of a Drill template implant (2) for receiving the drill template (4) in the jaw (1) to engage the surgical template (4) is connectable to the surgical template receiving implant (2). Drilling template according to claim 5,
characterized in that
the drilling template (4) is formed essentially of titanium. A drilling template according to claim 5 or 6,
characterized in that
the drilling template (4) is made by laser sintering or laser melting. Drilling template according to claim 7,
characterized in that
During laser sintering or laser melting, a laser beam (35) is guided on the basis of data from a drilling template model obtained by means of computed tomography (40). Drilling template according to one of claims 5 to 8,
characterized in that
the first fastening device (7, 8) has fastening tongues (7) emanating from a main body (5) having the hole (6) or the holes (6) for the passage of the dental implant drill. Drilling template according to claim 9,
characterized in that
the attachment tongue (7) has a through hole (8) for receiving a head (9) of the surgical template receiving implant (2). Drilling template according to one of claims 5 to 10,
characterized in that
the drilling template (4) has a stop for the dental implant drill in the region of the at least one hole (6) for the passage of the dental implant drill. Drilling template according to one of claims 5 to 11,
characterized in that
the orifices (6) for performing a dental implant drill have one or more removable guide sleeves (12, 17) for the drill guide, each guide sleeve (12, 17) being adapted to a predetermined drill diameter. A drilling template according to claim 12,
characterized in that
a plurality of guide sleeves (12, 17) telescoped into each other and are individually removable. Surgical template receiving implant for a device according to one of Claims 1 to 4, wherein the drilling template receiving implant (2) for Recording of a drilling template (4) according to one of claims 5 to 13 in Jaw is formed, the at least one first fastening device (7, 8), and wherein the surgical template receiving implant (2) has a second fastening means (28, 29) which in such a way to the first Fastening device (7, 8) is adapted to the drilling template (4) attachable to the surgical template receiving implant (2). A surgical template receiving implant according to claim 14,
marked by
a lower, male thread (23) for screwing the surgical template receiving implant (2) into the jaw (1) having portion and an upper unthreaded portion (24) conically formed with the head (9) of the surgical template receiving implant (2) of increasing diameter , A surgical template receiving implant according to claim 14 or 15,
characterized in that
the second fastening device (28, 29) has an internal thread (27) starting in the region of the head (9) of the surgical template receiving implant (2) and extending into the surgical template receiving implant (2). The surgical template receiving implant of any of claims 14 to 16,
characterized in that
in the region of the head (9) of the drilling template receiving implant (2) a regularly formed multi-surface area (26) is provided for receiving a dental tool. A surgical template receiving implant according to claim 17,
characterized in that
the multi-surface region (26) is an external or internal wrench, square or hexagon. A surgical template receiving implant according to any one of claims 16 to 18,
characterized in that
the second fastening device (28, 29) has a fastening screw (28), which can be screwed into the internal thread (27), for fastening the drilling template (4) to the surgical template receiving implant (2). Method for producing a drilling template according to one of claims 5 to 13,
characterized in that
the drilling template (4) is formed by layerwise laser sintering or laser melting of powdered material (38). Method according to claim 20,
characterized in that
a laser beam (35) departs the surface of a layer to be sintered or melted. Method according to claim 21,
characterized in that
the laser beam (35) is guided by a control unit (39) as a function of model data of a virtual drilling template determined in advance. Method according to claim 22,
characterized in that
the model data of the virtual drilling template are determined from data obtained by computer tomography (40) of a jaw. A method according to claim 22 or 23,
characterized in that
Positions of jaw implanted implant-receiving implants (2) are determined and at these positions corresponding positions on the drilling template (4), the first fastening means (7, 8) are formed.

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